/**
 * @class Ext.chart.series.Area
 * @extends Ext.chart.series.Cartesian
 *
 * Creates a Stacked Area Chart. The stacked area chart is useful when displaying multiple aggregated layers of information.
 * As with all other series, the Area Series must be appended in the *series* Chart array configuration. See the Chart
 * documentation for more information. A typical configuration object for the area series could be:
 *
 *     @example
 *     var store = Ext.create('Ext.data.JsonStore', {
 *         fields: ['name', 'data1', 'data2', 'data3', 'data4', 'data5'],
 *         data: [
 *             { 'name': 'metric one',   'data1':10, 'data2':12, 'data3':14, 'data4':8,  'data5':13 },
 *             { 'name': 'metric two',   'data1':7,  'data2':8,  'data3':16, 'data4':10, 'data5':3  },
 *             { 'name': 'metric three', 'data1':5,  'data2':2,  'data3':14, 'data4':12, 'data5':7  },
 *             { 'name': 'metric four',  'data1':2,  'data2':14, 'data3':6,  'data4':1,  'data5':23 },
 *             { 'name': 'metric five',  'data1':27, 'data2':38, 'data3':36, 'data4':13, 'data5':33 }
 *         ]
 *     });
 *
 *     Ext.create('Ext.chart.Chart', {
 *         renderTo: Ext.getBody(),
 *         width: 500,
 *         height: 300,
 *         store: store,
 *         axes: [
 *             {
 *                 type: 'Numeric',
 *                 grid: true,
 *                 position: 'left',
 *                 fields: ['data1', 'data2', 'data3', 'data4', 'data5'],
 *                 title: 'Sample Values',
 *                 grid: {
 *                     odd: {
 *                         opacity: 1,
 *                         fill: '#ddd',
 *                         stroke: '#bbb',
 *                         'stroke-width': 1
 *                     }
 *                 },
 *                 minimum: 0,
 *                 adjustMinimumByMajorUnit: 0
 *             },
 *             {
 *                 type: 'Category',
 *                 position: 'bottom',
 *                 fields: ['name'],
 *                 title: 'Sample Metrics',
 *                 grid: true,
 *                 label: {
 *                     rotate: {
 *                         degrees: 315
 *                     }
 *                 }
 *             }
 *         ],
 *         series: [{
 *             type: 'area',
 *             highlight: false,
 *             axis: 'left',
 *             xField: 'name',
 *             yField: ['data1', 'data2', 'data3', 'data4', 'data5'],
 *             style: {
 *                 opacity: 0.93
 *             }
 *         }]
 *     });
 *
 * In this configuration we set `area` as the type for the series, set highlighting options to true for highlighting elements on hover,
 * take the left axis to measure the data in the area series, set as xField (x values) the name field of each element in the store,
 * and as yFields (aggregated layers) seven data fields from the same store. Then we override some theming styles by adding some opacity
 * to the style object.
 *
 * @xtype area
 */
Ext.define('Ext.chart.series.Area', {

    /* Begin Definitions */

    extend: 'Ext.chart.series.Cartesian',

    alias: 'series.area',

    requires: ['Ext.chart.axis.Axis', 'Ext.draw.Color', 'Ext.fx.Anim'],

    /* End Definitions */

    type: 'area',

    // @private Area charts are alyways stacked
    stacked: true,

    /**
     * @cfg {Object} style
     * Append styling properties to this object for it to override theme properties.
     */
    style: {},

    constructor: function(config) {
        this.callParent(arguments);
        var me = this,
            surface = me.chart.surface,
            i, l;
        config.highlightCfg = Ext.Object.merge({}, {
            lineWidth: 3,
            stroke: '#55c',
            opacity: 0.8,
            color: '#f00'
        }, config.highlightCfg);

        Ext.apply(me, config, {
            __excludes: []
        });
        if (me.highlight) {
            me.highlightSprite = surface.add({
                type: 'path',
                path: ['M', 0, 0],
                zIndex: 1000,
                opacity: 0.3,
                lineWidth: 5,
                hidden: true,
                stroke: '#444'
            });
        }
        me.group = surface.getGroup(me.seriesId);
    },

    // @private Shrinks dataSets down to a smaller size
    shrink: function(xValues, yValues, size) {
        var len = xValues.length,
            ratio = Math.floor(len / size),
            i, j,
            xSum = 0,
            yCompLen = this.areas.length,
            ySum = [],
            xRes = [],
            yRes = [];
        //initialize array
        for (j = 0; j < yCompLen; ++j) {
            ySum[j] = 0;
        }
        for (i = 0; i < len; ++i) {
            xSum += xValues[i];
            for (j = 0; j < yCompLen; ++j) {
                ySum[j] += yValues[i][j];
            }
            if (i % ratio == 0) {
                //push averages
                xRes.push(xSum/ratio);
                for (j = 0; j < yCompLen; ++j) {
                    ySum[j] /= ratio;
                }
                yRes.push(ySum);
                //reset sum accumulators
                xSum = 0;
                for (j = 0, ySum = []; j < yCompLen; ++j) {
                    ySum[j] = 0;
                }
            }
        }
        return {
            x: xRes,
            y: yRes
        };
    },

    // @private Get chart and data boundaries
    getBounds: function() {
        var me = this,
            chart = me.chart,
            store = chart.getChartStore(),
            areas = [].concat(me.yField),
            areasLen = areas.length,
            xValues = [],
            yValues = [],
            infinity = Infinity,
            minX = infinity,
            minY = infinity,
            maxX = -infinity,
            maxY = -infinity,
            math = Math,
            mmin = math.min,
            mmax = math.max,
            bbox, xScale, yScale, xValue, yValue, areaIndex, acumY, ln, sumValues, clipBox, areaElem, axis, out;

        me.setBBox();
        bbox = me.bbox;

        // Run through the axis
        if (me.axis) {
            axis = chart.axes.get(me.axis);
            if (axis) {
                out = axis.calcEnds();
                minY = out.from || axis.prevMin;
                maxY = mmax(out.to || axis.prevMax, 0);
            }
        }

        if (me.yField && !Ext.isNumber(minY)) {
            axis = new Ext.chart.axis.Axis({
                chart: chart,
                fields: [].concat(me.yField)
            });
            out = axis.calcEnds();
            minY = out.from || axis.prevMin;
            maxY = mmax(out.to || axis.prevMax, 0);
        }

        if (!Ext.isNumber(minY)) {
            minY = 0;
        }
        if (!Ext.isNumber(maxY)) {
            maxY = 0;
        }

        store.each(function(record, i) {
            xValue = record.get(me.xField);
            yValue = [];
            if (typeof xValue != 'number') {
                xValue = i;
            }
            xValues.push(xValue);
            acumY = 0;
            for (areaIndex = 0; areaIndex < areasLen; areaIndex++) {
                // Excluded series
                if (me.__excludes[areaIndex]) {
                    continue;
                }
                areaElem = record.get(areas[areaIndex]);
                if (typeof areaElem == 'number') {
                    minY = mmin(minY, areaElem);
                    yValue.push(areaElem);
                    acumY += areaElem;
                }
            }
            minX = mmin(minX, xValue);
            maxX = mmax(maxX, xValue);
            maxY = mmax(maxY, acumY);
            yValues.push(yValue);
        }, me);

        xScale = bbox.width / ((maxX - minX) || 1);
        yScale = bbox.height / ((maxY - minY) || 1);

        ln = xValues.length;
        if ((ln > bbox.width) && me.areas) {
            sumValues = me.shrink(xValues, yValues, bbox.width);
            xValues = sumValues.x;
            yValues = sumValues.y;
        }

        return {
            bbox: bbox,
            minX: minX,
            minY: minY,
            xValues: xValues,
            yValues: yValues,
            xScale: xScale,
            yScale: yScale,
            areasLen: areasLen
        };
    },

    // @private Build an array of paths for the chart
    getPaths: function() {
        var me = this,
            chart = me.chart,
            store = chart.getChartStore(),
            first = true,
            bounds = me.getBounds(),
            bbox = bounds.bbox,
            items = me.items = [],
            componentPaths = [],
            componentPath,
            count = 0,
            paths = [],
            i, ln, x, y, xValue, yValue, acumY, areaIndex, prevAreaIndex, areaElem, path;

        ln = bounds.xValues.length;
        // Start the path
        for (i = 0; i < ln; i++) {
            xValue = bounds.xValues[i];
            yValue = bounds.yValues[i];
            x = bbox.x + (xValue - bounds.minX) * bounds.xScale;
            acumY = 0;
            count = 0;
            for (areaIndex = 0; areaIndex < bounds.areasLen; areaIndex++) {
                // Excluded series
                if (me.__excludes[areaIndex]) {
                    continue;
                }
                if (!componentPaths[areaIndex]) {
                    componentPaths[areaIndex] = [];
                }
                areaElem = yValue[count];
                acumY += areaElem;
                y = bbox.y + bbox.height - (acumY - bounds.minY) * bounds.yScale;
                if (!paths[areaIndex]) {
                    paths[areaIndex] = ['M', x, y];
                    componentPaths[areaIndex].push(['L', x, y]);
                } else {
                    paths[areaIndex].push('L', x, y);
                    componentPaths[areaIndex].push(['L', x, y]);
                }
                if (!items[areaIndex]) {
                    items[areaIndex] = {
                        pointsUp: [],
                        pointsDown: [],
                        series: me
                    };
                }
                items[areaIndex].pointsUp.push([x, y]);
                count++;
            }
        }

        // Close the paths
        for (areaIndex = 0; areaIndex < bounds.areasLen; areaIndex++) {
            // Excluded series
            if (me.__excludes[areaIndex]) {
                continue;
            }
            path = paths[areaIndex];
            // Close bottom path to the axis
            if (areaIndex == 0 || first) {
                first = false;
                path.push('L', x, bbox.y + bbox.height,
                          'L', bbox.x, bbox.y + bbox.height,
                          'Z');
            }
            // Close other paths to the one before them
            else {
                componentPath = componentPaths[prevAreaIndex];
                componentPath.reverse();
                path.push('L', x, componentPath[0][2]);
                for (i = 0; i < ln; i++) {
                    path.push(componentPath[i][0],
                              componentPath[i][1],
                              componentPath[i][2]);
                    items[areaIndex].pointsDown[ln -i -1] = [componentPath[i][1], componentPath[i][2]];
                }
                path.push('L', bbox.x, path[2], 'Z');
            }
            prevAreaIndex = areaIndex;
        }
        return {
            paths: paths,
            areasLen: bounds.areasLen
        };
    },

    /**
     * Draws the series for the current chart.
     */
    drawSeries: function() {
        var me = this,
            chart = me.chart,
            store = chart.getChartStore(),
            surface = chart.surface,
            animate = chart.animate,
            group = me.group,
            endLineStyle = Ext.apply(me.seriesStyle, me.style),
            colorArrayStyle = me.colorArrayStyle,
            colorArrayLength = colorArrayStyle && colorArrayStyle.length || 0,
            areaIndex, areaElem, paths, path, rendererAttributes;
        
        me.unHighlightItem();
        me.cleanHighlights();

        if (!store || !store.getCount() || me.seriesIsHidden) {
            me.hide();
            me.items = [];
            return;
        }

        paths = me.getPaths();

        if (!me.areas) {
            me.areas = [];
        }

        for (areaIndex = 0; areaIndex < paths.areasLen; areaIndex++) {
            // Excluded series
            if (me.__excludes[areaIndex]) {
                continue;
            }
            if (!me.areas[areaIndex]) {
                me.items[areaIndex].sprite = me.areas[areaIndex] = surface.add(Ext.apply({}, {
                    type: 'path',
                    group: group,
                    // 'clip-rect': me.clipBox,
                    path: paths.paths[areaIndex],
                    stroke: endLineStyle.stroke || colorArrayStyle[areaIndex % colorArrayLength],
                    fill: colorArrayStyle[areaIndex % colorArrayLength]
                }, endLineStyle || {}));
            }
            areaElem = me.areas[areaIndex];
            path = paths.paths[areaIndex];
            if (animate) {
                //Add renderer to line. There is not a unique record associated with this.
                rendererAttributes = me.renderer(areaElem, false, {
                    path: path,
                    // 'clip-rect': me.clipBox,
                    fill: colorArrayStyle[areaIndex % colorArrayLength],
                    stroke: endLineStyle.stroke || colorArrayStyle[areaIndex % colorArrayLength]
                }, areaIndex, store);
                //fill should not be used here but when drawing the special fill path object
                me.animation = me.onAnimate(areaElem, {
                    to: rendererAttributes
                });
            } else {
                rendererAttributes = me.renderer(areaElem, false, {
                    path: path,
                    // 'clip-rect': me.clipBox,
                    hidden: false,
                    fill: colorArrayStyle[areaIndex % colorArrayLength],
                    stroke: endLineStyle.stroke || colorArrayStyle[areaIndex % colorArrayLength]
                }, areaIndex, store);
                me.areas[areaIndex].setAttributes(rendererAttributes, true);
            }
        }
        me.renderLabels();
        me.renderCallouts();
    },

    // @private
    onAnimate: function(sprite, attr) {
        sprite.show();
        return this.callParent(arguments);
    },

    // @private
    onCreateLabel: function(storeItem, item, i, display) {
        var me = this,
            group = me.labelsGroup,
            config = me.label,
            bbox = me.bbox,
            endLabelStyle = Ext.apply(config, me.seriesLabelStyle);

        return me.chart.surface.add(Ext.apply({
            'type': 'text',
            'text-anchor': 'middle',
            'group': group,
            'x': item.point[0],
            'y': bbox.y + bbox.height / 2
        }, endLabelStyle || {}));
    },

    // @private
    onPlaceLabel: function(label, storeItem, item, i, display, animate, index) {
        var me = this,
            chart = me.chart,
            resizing = chart.resizing,
            config = me.label,
            format = config.renderer,
            field = config.field,
            bbox = me.bbox,
            x = item.point[0],
            y = item.point[1],
            bb, width, height;

        label.setAttributes({
            text: format(storeItem.get(field[index])),
            hidden: true
        }, true);

        bb = label.getBBox();
        width = bb.width / 2;
        height = bb.height / 2;

        x = x - width < bbox.x? bbox.x + width : x;
        x = (x + width > bbox.x + bbox.width) ? (x - (x + width - bbox.x - bbox.width)) : x;
        y = y - height < bbox.y? bbox.y + height : y;
        y = (y + height > bbox.y + bbox.height) ? (y - (y + height - bbox.y - bbox.height)) : y;

        if (me.chart.animate && !me.chart.resizing) {
            label.show(true);
            me.onAnimate(label, {
                to: {
                    x: x,
                    y: y
                }
            });
        } else {
            label.setAttributes({
                x: x,
                y: y
            }, true);
            if (resizing) {
                me.animation.on('afteranimate', function() {
                    label.show(true);
                });
            } else {
                label.show(true);
            }
        }
    },

    // @private
    onPlaceCallout : function(callout, storeItem, item, i, display, animate, index) {
        var me = this,
            chart = me.chart,
            surface = chart.surface,
            resizing = chart.resizing,
            config = me.callouts,
            items = me.items,
            prev = (i == 0) ? false : items[i -1].point,
            next = (i == items.length -1) ? false : items[i +1].point,
            cur = item.point,
            dir, norm, normal, a, aprev, anext,
            bbox = callout.label.getBBox(),
            offsetFromViz = 30,
            offsetToSide = 10,
            offsetBox = 3,
            boxx, boxy, boxw, boxh,
            p, clipRect = me.clipRect,
            x, y;

        //get the right two points
        if (!prev) {
            prev = cur;
        }
        if (!next) {
            next = cur;
        }
        a = (next[1] - prev[1]) / (next[0] - prev[0]);
        aprev = (cur[1] - prev[1]) / (cur[0] - prev[0]);
        anext = (next[1] - cur[1]) / (next[0] - cur[0]);

        norm = Math.sqrt(1 + a * a);
        dir = [1 / norm, a / norm];
        normal = [-dir[1], dir[0]];

        //keep the label always on the outer part of the "elbow"
        if (aprev > 0 && anext < 0 && normal[1] < 0 || aprev < 0 && anext > 0 && normal[1] > 0) {
            normal[0] *= -1;
            normal[1] *= -1;
        } else if (Math.abs(aprev) < Math.abs(anext) && normal[0] < 0 || Math.abs(aprev) > Math.abs(anext) && normal[0] > 0) {
            normal[0] *= -1;
            normal[1] *= -1;
        }

        //position
        x = cur[0] + normal[0] * offsetFromViz;
        y = cur[1] + normal[1] * offsetFromViz;

        //box position and dimensions
        boxx = x + (normal[0] > 0? 0 : -(bbox.width + 2 * offsetBox));
        boxy = y - bbox.height /2 - offsetBox;
        boxw = bbox.width + 2 * offsetBox;
        boxh = bbox.height + 2 * offsetBox;

        //now check if we're out of bounds and invert the normal vector correspondingly
        //this may add new overlaps between labels (but labels won't be out of bounds).
        if (boxx < clipRect[0] || (boxx + boxw) > (clipRect[0] + clipRect[2])) {
            normal[0] *= -1;
        }
        if (boxy < clipRect[1] || (boxy + boxh) > (clipRect[1] + clipRect[3])) {
            normal[1] *= -1;
        }

        //update positions
        x = cur[0] + normal[0] * offsetFromViz;
        y = cur[1] + normal[1] * offsetFromViz;

        //update box position and dimensions
        boxx = x + (normal[0] > 0? 0 : -(bbox.width + 2 * offsetBox));
        boxy = y - bbox.height /2 - offsetBox;
        boxw = bbox.width + 2 * offsetBox;
        boxh = bbox.height + 2 * offsetBox;

        //set the line from the middle of the pie to the box.
        callout.lines.setAttributes({
            path: ["M", cur[0], cur[1], "L", x, y, "Z"]
        }, true);
        //set box position
        callout.box.setAttributes({
            x: boxx,
            y: boxy,
            width: boxw,
            height: boxh
        }, true);
        //set text position
        callout.label.setAttributes({
            x: x + (normal[0] > 0? offsetBox : -(bbox.width + offsetBox)),
            y: y
        }, true);
        for (p in callout) {
            callout[p].show(true);
        }
    },

    isItemInPoint: function(x, y, item, i) {
        var me = this,
            pointsUp = item.pointsUp,
            pointsDown = item.pointsDown,
            abs = Math.abs,
            distChanged = false,
            last = false,
            dist = Infinity, p, pln, point;

        for (p = 0, pln = pointsUp.length; p < pln; p++) {
            point = [pointsUp[p][0], pointsUp[p][1]];
            
            distChanged = false;
            last = p == pln -1;

            if (dist > abs(x - point[0])) {
                dist = abs(x - point[0]);
                distChanged = true;
                if (last) {
                    ++p;
                }
            }
            
            if (!distChanged || (distChanged && last)) {
                point = pointsUp[p -1];
                if (y >= point[1] && (!pointsDown.length || y <= (pointsDown[p -1][1]))) {
                    item.storeIndex = p -1;
                    item.storeField = me.yField[i];
                    item.storeItem = me.chart.store.getAt(p -1);
                    item._points = pointsDown.length? [point, pointsDown[p -1]] : [point];
                    return true;
                } else {
                    break;
                }
            }
        }
        return false;
    },

    /**
     * Highlight this entire series.
     * @param {Object} item Info about the item; same format as returned by #getItemForPoint.
     */
    highlightSeries: function() {
        var area, to, fillColor;
        if (this._index !== undefined) {
            area = this.areas[this._index];
            if (area.__highlightAnim) {
                area.__highlightAnim.paused = true;
            }
            area.__highlighted = true;
            area.__prevOpacity = area.__prevOpacity || area.attr.opacity || 1;
            area.__prevFill = area.__prevFill || area.attr.fill;
            area.__prevLineWidth = area.__prevLineWidth || area.attr.lineWidth;
            fillColor = Ext.draw.Color.fromString(area.__prevFill);
            to = {
                lineWidth: (area.__prevLineWidth || 0) + 2
            };
            if (fillColor) {
                to.fill = fillColor.getLighter(0.2).toString();
            }
            else {
                to.opacity = Math.max(area.__prevOpacity - 0.3, 0);
            }
            if (this.chart.animate) {
                area.__highlightAnim = new Ext.fx.Anim(Ext.apply({
                    target: area,
                    to: to
                }, this.chart.animate));
            }
            else {
                area.setAttributes(to, true);
            }
        }
    },

    /**
     * UnHighlight this entire series.
     * @param {Object} item Info about the item; same format as returned by #getItemForPoint.
     */
    unHighlightSeries: function() {
        var area;
        if (this._index !== undefined) {
            area = this.areas[this._index];
            if (area.__highlightAnim) {
                area.__highlightAnim.paused = true;
            }
            if (area.__highlighted) {
                area.__highlighted = false;
                area.__highlightAnim = new Ext.fx.Anim({
                    target: area,
                    to: {
                        fill: area.__prevFill,
                        opacity: area.__prevOpacity,
                        lineWidth: area.__prevLineWidth
                    }
                });
            }
        }
    },

    /**
     * Highlight the specified item. If no item is provided the whole series will be highlighted.
     * @param item {Object} Info about the item; same format as returned by #getItemForPoint
     */
    highlightItem: function(item) {
        var me = this,
            points, path;
        if (!item) {
            this.highlightSeries();
            return;
        }
        points = item._points;
        path = points.length == 2? ['M', points[0][0], points[0][1], 'L', points[1][0], points[1][1]]
                : ['M', points[0][0], points[0][1], 'L', points[0][0], me.bbox.y + me.bbox.height];
        me.highlightSprite.setAttributes({
            path: path,
            hidden: false
        }, true);
    },

    /**
     * Un-highlights the specified item. If no item is provided it will un-highlight the entire series.
     * @param {Object} item Info about the item; same format as returned by #getItemForPoint
     */
    unHighlightItem: function(item) {
        if (!item) {
            this.unHighlightSeries();
        }

        if (this.highlightSprite) {
            this.highlightSprite.hide(true);
        }
    },

    // @private
    hideAll: function() {
        var me = this;
        if (!isNaN(me._index)) {
            me.__excludes[me._index] = true;
            me.areas[me._index].hide(true);
            me.redraw();
        }
    },

    // @private
    showAll: function() {
        var me = this;
        if (!isNaN(me._index)) {
            me.__excludes[me._index] = false;
            me.areas[me._index].show(true);
            me.redraw();
        }
    },

    redraw: function() {
        //store previous configuration for the legend
        //and set it to false so we don't
        //re-build label elements if not necessary.
        var me = this,
            prevLegendConfig;
        prevLegendConfig = me.chart.legend.rebuild;
        me.chart.legend.rebuild = false;
        me.chart.redraw();
        me.chart.legend.rebuild = prevLegendConfig;
    },
    
    hide: function() {
        if (this.areas) {
            var me = this,
                areas = me.areas,
                i, j, l, ln, shadows;
            
            if (areas && areas.length) {
                for (i = 0, ln = areas.length; i < ln; ++i) {
                    if (areas[i]) {
                        areas[i].hide(true);
                    }
                }
                me.hideLabels();
            }
        }
    },

    /**
     * Returns the color of the series (to be displayed as color for the series legend item).
     * @param {Object} item Info about the item; same format as returned by #getItemForPoint
     */
    getLegendColor: function(index) {
        var me = this;
        return me.colorArrayStyle[index % me.colorArrayStyle.length];
    }
});
